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Description TUD Dresden University of Technology, as a University of Excellence, is one of the leading and most dynamic research institutions in the country. Founded in 1828, today it is a globally
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and economically viable absorber system for the separation of CO₂ from flue gases. The focus is on the scientific evaluation of the technologies, the analytical design of the fluid-dynamic processes and
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number of environmental challenges, including weather, climate and sea state forecasting. The Air-Sea Fluxes group at the Institute of Coastal Ocean Dynamics conducts laboratory- and field-based research
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sound background in geophysical fluid dynamics, experience in numerical ocean or atmospheric modelling, and experience with numerical data analysis. Good scientific presentation, writing, and
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nanobubble-inducing shockwave is a powerful tool for ablating vitreous opacities in vivo. In solar energy utilization, direct steam generation/vapor production from bulk or surface fluid surface is a promising
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messengers transported by the flow or even the pressure of the fluid itself. In an interdisciplinary team, you will either develop theoretical models of the feedback between flow and network architecture
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that eventually will automate crucial design steps. In addition, we are developing simulators (on various abstraction levels; using, e.g., Computational Fluid Dynamics) which enables us to validate designs
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context. The project is carried out in cooperation with the TUM Chair of Flight System Dynamics. The work is based on existing research results such as a GPU-based Lattice-Boltzmann solver and a modular
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of finite element or finite volume methods for coupled problems in one of the application areas of the group (fluid mechanics, semiconductor device simulation, electro-chemistry). Expected
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fluids, design novel numerical simulation and optimal control schemes, and provide new means for risk management. This project mainly focuses on the analysis and optimal control of the underlying SPDE and